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Fabrication and Mechanical Properties of Alumina—CNTs Composites Jingsong Zhao1, a,Yi Feng1, b,Nannan Chen1, c,Fanyan Chen1,Chen Jie1, Xuebin Zhang1, Xiaobing Pan2,Jing Tu2, Xiaoping Ouyang2 1 School of Materials Science and Engineering, Hefei University of Technology, Anhui, Hefei 230009, China 2 Northwest Institute of Nuclear Technology, Xi′an 710024, China ascholes.elva@163.com, bfy123@mail.hf.ah.cn, cnan12345687@sina.com Keywords: The transmutation target material, Alumina-CNTs composities, Properties, Pressureless sintering Abstract: The transmutation target of nuclear waste material has been fabrication by a powder metallurgy method by using Alumina as the matrix and CNTs as reinforcement.
[2] Liu W: Advanced Ceramics Processing(Chemical Industry Press, China 2004)
[3] Cao Q，Chen Z, Li Y, Deng X and Cai D: Electronic Components&materials Vol. 9 (2004), p.37 [4] Mehdi E and Akira K: Scripta Materialia Vol. 58 (2008), p.906 [5] Mehdi E, Akira K, Hiroki S, Yutaka M, Masaki K and Takayuki T: Scripta Materialia Vol. 56 (2008), p.4070 [6] Wang H, Zhou X, Yu H, Zhou C and Wang Z: Materials Review Vol. 22 (2008), p.146 [7] Mehdi E, Hansang K, Akira K, Seungchan C, Kenta T, Keiko K and Masayoshi K: Journal of Nuclear Materials Vol. 398 (2010), p.244 [8] Sung WK, Won SC, Kee SS, Chang YS and Sunghak L: Materials Science and Engineering Vol. 517 (2009), p.293 [9] Kalmodia S, Goenka S, Laha T, Lahiri D, Basu B and Balani K: Materials Science & Engineering c-materials for biological applications Vol. 30 (2010), p.1162 [10] Ahmad I, Unwin M, Cao H, Chen H, Zhao H, Kennedy A and Zhu YQ: Composites Science and Technology Vol. 70 (2010), p.1199 [11] Inam F, Yan HX, Peijs T and Reece MJ: Composites Science and Technology Vol. 70 (2010), p.947 [12] Estili
M, Takagi K and Kawasaki A: Materials Science Forum Vol. 631-632 (2010), p.225

The inelastic response constitutive description of metal material under different stress and wide temperature range is very important in many practical engineering.
Although the emergence of many new materials, such as polymer materials, ceramic materials and titanium, aluminum, steel occupies a leading position in modern engineering materials in the future for a long period, especially high quality carbon structural steel, because of its abound resources, good performance and low cost[1-3].
Sci.Forum, Vol. 575-578 (2008) p. 1050 [2] Y.
Gao, Computer engineering and application, Vol. 18 (2004) p. 95 [4] G.
Poul, “Neural networks modeling in geomechanics”, Sinwardne & Zaman, Computer methods and advances in geomechanics, Rotterdam: Balkema, (1994) p.153-164

The Design of Curriculum Website OU Qizhong1,a, HUANG Xingyun2,b 1Computer & Information Engineering College,Guangxi Teachers Education University,Nanning,Guangxi,China 2Teaching Affairs Office,Guangxi Mech. & Elec.Industy School,Nanning,Guangxi,China a7794373@qq.com, b20910676@qq.com Author Biographies OU Qizhong(1970-),Male,Senior Engineer HUANG Xingyun(1981-), female, Master of Engineering(ME).
Communication module: includes an online Q & A, E-mail, education blog, learning forum and other interactive modes.
Website should be not only open, but also secure, and adopt the advanced security technology or security measures to ensure network security, which has reached a consensus in network application.

Experimental Research on the Abrasive Belt Grinding Blades Material 1Cr13 Stainless Steel Chunqiang Yang1,2, a, Yun Huang1,2, b , Zhi Huang1,2, c and Xiaozhen Li3, d 1College of Mechanical Engineering, Chongqing University, Chongqing, 400030, China 2Chongqing Engineering Research Center for Material Surface Precision Machining and Whole Set Equipments, Chongqing, 400021, China 3College of Economic Management, Henan Agricultural University, Zhengzhou, Henan, 450002, China aycq_xq@163.com, byunhuang@samhida.com, chz@samhida.com, dzheng8522@163.com Keywords: Belt grinding, Surface roughness, Abrasive belt wear, Stainless steel Abstract.
Huang: Materials Science Forum Vol. 626-627(2009), pp.617-622
Mamoru: Journal of Japan Society of Lubrication Engineers Vol. 6 (1985), pp.157-162
Bernd: International Journal of Advanced Manufacturing Technology Vol. 35 (2008), pp.1090-1099 [6] S.

The green value evaluation study of ecology energy conservation construction Maosheng Yangr1, a, JIhuan Ning2, b Ruirui Ning3, c 1College of management, Xi’an University of Architecture and Technology, Xi'AN, 710055.China 2College of management, Xi'AN University of Architecture and Technology, Xi'AN, 710055.China 3School of Architechture & Civil Engineering; Liaocheng University; 252059; Liaocheng; Shandong; China bningjihuan1987@163.com, Key words: ecological energy-saving building; green value; assessment Abstract: This paper makes a detailed analysis of the four dimensions of influencing factors and composition index, namely, financial return, resource consumption, environment load and external benefit.
The resource consumption expense is refers to the engineering project to end the fund consumption investment sum total which from the idea to completion until the project life the entire process occurs. (1)Construction expense increase The supposition entire project altogether has J kind of building unit, then entire project in life cycle construction expense increase current value for formula(2): (2) And, j is the building unit's type serial number (j=1, 2… J), J has applied the energy conservation technology building unit integer; t is time the j updating equipment year number, T is the building life cycle; △Rjt is the j item conserves energy the money which in the t year implementation equipment's renewal spends much; ic is the datum returns ratio.
Environment load expense increase target and appraisal The environment load expense is refers to the engineering project in its total life cycle to the social environment positive or the negative influence.
Acknowledgements Supported by the featured discipline of philosophy and general social sciences of Shaanxi higher education institutions References [1] Baoxing Qiu, the development energy conservation green construction, advances the housing industry healthy development-2005 the Chinese green construction ecology housing and real estate circulation economical forum congress's speech [Z]

High performance simulation has great prospect of application in the fields of Materials Science and Engineering.
In distributed time management implementation, for every federate which need time advance, all the logical time information need to get from all other related federates, and there will be a lot of message interactions, so it is time consuming.
When the federate need to time advance, it only need to send the request to CRC, CRC will calculate the GALT (greatest available logical time) according the global time information, and then decide whether to allow the time advance, at last send reply to the request federate.
USA: The Institute of Electrical and Electronics Engineers, Inc., 2000.12Dj.M.
Forum Vol. 83-87 (1992), p. 119 [2] Buquan, L., et al.

Genome engineering is a powerful tool that enhances the accelerated innovation in materials development allowing both the discovery and optimization of functionalities based on a wide range of techniques.
Thin films engineering is in the forefront of this new approach by allowing the generation of a wide range of compositions in a limited number of experiments and taking advantage out of the possibility to use high-throughput characterization techniques.
Materials genome engineering (MGE) is becoming a powerful solution to accelerate the innovation in the field of materials development.
Conclusions Genome engineering is a powerful tool that allows an accelerated innovation in materials engineering.
Ito, Materials Science Forum, 469, 534-536 (2007)

The Effect of Die Channel Angles and their Combination on Plastic Deformation of Pure Copper During Equal Channel Angular Pressing Using Finite Element Modelling Malothu Ramulu1,a*, and Arkanti Krishnaiah2,b 1Principal Scientist, Mechanical Design and Engineering Dept., CSIR-IICT, Hyderabad-7, TS, India 2Professor, Dept. of Mech.
Langdon, Developing superplastic properties in an aluminum alloy through severe plastic deformation, Materials Science and Engineering: A, 272(1) (1999) 63-72
Krishnaiah, Finite element modelling of copper by equal channel angular extrusion, Advanced Materials Research, 941-944 (2014) 2313-2316
Clausen, Finite element analysis of the plastic deformation zone and working load in equal channel angular extrusion, Materials Science and Engineering: A, 382 (2004) 217-236
Kim, Finite element analysis of equal channel angular pressing using a round corner die, Materials Science and Engineering: A, 315 (1-2) (2001) 122-128

Influence of Gas Metal Arc Welding Parameter on Lap Joint Properties of SS400 Carbon Steel and SUS304 Stainless Steel Kittipong Kimapong1,a* and Surat Triwanapong2,b 1Department of Industrial Engineering, Faculty of Engineering, Rajamangala University of Technology Thanyaburi, Thailand.
Therefore, an investigation for optimization of a gas metal arc welding (GMAW) for producing the dissimilar metal lap joint should be conducted for advancing the manufacturing industries.
Phule, Science and Engineering of Materials, Cengage Learning, Singapore, 2006
Jobes, Engineering Materials 2-An Introduction to Microstructures, Processing and Design, Butterworth-Heinemann, 1 Oxford, 1998
Forum, 872 (2016) 55-61

Build A"Computer Network Technology"Teaching Model Based on Work Process Xiaoming Bi 1, a, Chunru Xiong2,b and Qiansheng Zheng 1,c 1Wenzhou Vocational College of Science and Technology, Wenzhou, Zhejiang, 325006, China 2Electrical Engineering Department, XinYu College, Xinyu, Jiangxi, 338000, China awzkzybxm@126.com, bxcrmcu@163.com, c58666300@qq.com Keywords: work process; teaching model; computer network.
II Theoretical basis of vocational education "Based on the Work Process" curriculum development  Ministry of Education Higher Education Document No.16<2006> proposes: Vocational education training goal is to train advanced technology professional talent meeting first line production, construction, management, service.
Work Process Based Curriculum Design Method is one of the world's advanced vocational education curriculum development methods, is currently China's higher vocational education advocated course development approach, and is one of the tools used in higher vocational education model institutions curriculum reform.
Forum Vol. 83-87 (1992), p. 119 [2] M.A.
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.